Parallel algorithms for calculating unsteady fluid flows
Solid-fluid interactions, CFD and CSD
Large-scale computations
Parallel computing algorithms
High performance computing
Grid computing
Finite elements and finite volumes
- Computational Fluid Dynamics
- Computational Mechanics
- Finite Element Methods
- Parallel Computing
- Solid-Fluid Interactions
- Fatigue and Creep Modeling
- Electronic Packaging Reliability
Parallel algorithms for calculating unsteady fluid flows; solid-fluid interactions, CFD and CSD; large-scale computations; parallel computing algorithms; high performance computing; grid computing; finite elements and finite volumes.
Teaching Interests
- Mechanical Design
- Basic Mechanics
- Computer-Aided Engineering
- Finite Elements
- Fluid Mechanics
Dr. Akay conducts research in developing parallel computational techniques for finite element and finite volume solution of large-scale problems in fluid dynamics and solid mechanics, including solid-fluid interactions.
Parallel algorithms for calculating unsteady fluid flows
Solid-fluid interactions, CFD and CSD
Large-scale computations
Parallel computing algorithms
High performance computing
Grid computing
Finite elements and finite volumes
Multiscale modeling
CFD, CSD, Finite Elements, Finite Volumes, Fluid Dynamics, Grid Computing, High Performance Computing, Parallel Computing, Solid Mechanics, Undergraduate Research
Large-scale computing
Grid computing
Multi-scale modeling
Solid-fluid interactions